A detailed documentary on the work of Dr. Paulo Correa and Alexandra Correa at
ABRI (2001-2004) to develop a readily accessible, quiet, free, `round-the-clock
alternative power generation system consisting of an Orgone Accumulator modified to
optimize its function as a Stirling Motor drive. Stunning evidence for the persistence of
the anomalous positive temperature difference atop Orgone Accumulators - first
discovered by W. Reich - even when these Accumulators are continually used as
thermal Motor-Drives during nighttime.

"Free Power Around-the-Clock" begins with the Reich-Einstein experiment - when the
spontaneous positive temperature difference atop Orgone Accumulators (ORACs) was
observed to persist even in naked suspended Faraday cages, and follows on to the
Correas' step-by-step development of a hybrid apparatus - the HYBORAC, a cross
between a Black ORAC and a Black Faraday cage - designed for daytime exposure to
solar radiation and as a drive for Low Delta-T Gamma Stirling Motors.

The feature moves on to the development of a variant calorimeter-like HYBORAC for
nighttime operation that would be capable of preserving the positive difference while
driving the Stirling engine.

Early attempts at securing continuous operation reached near round-the-clock results,
up to 20 out of 24 hours. Further improvements to the 8 cubic inch HYBORAC
enabled its nighttime performance to match that of daytime, with diurnal mean outputs
that show this technology to be >1.5x more
efficient at capturing solar radiation than passive solar collector standards,
nearly 3x more efficient at outputting work-equivalent energy than photovoltaics, and
capable of driving a Stirling Motor around the clock, 24 out of 24
hours.

Contents:

1. Opening2. Introduction
The Reich Einstein experiment
The thermal anomaly of Orgone Accumulators
The Stirling Motor
The daytime HYBORAC
The nighttime HYBORAC3. Initial daytime experiments with the HYBORAC/Stirling drive4. Initial nighttime experiments with the HYBORAC/Stirling drive5. Attempts at continuous operation of the HYBORAC/Stirling drive6. Around-the-Clock Free Power
The 48 hour experiment
Stirling Motor input and output calibrations
The heat problem of the HYBORAC as a Stirling drive
Conversion of Latent into Sensible Heat
Power output of the HYBORAC
Power output of the HYBORAC-coupled Stirling Motor7. Credits

Produced by Akronos Publishing Recorded by ABRI Productions Engineered by ABRI Studios Design by Akronos Publishing Camera by Dr. Malgosia Askanas Music by Izan Ader Art work by Alexandra Correa